MPA-40-40: Difference between revisions
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(Created page with "thumb|400px| == Files == * [https://wiki.physics.wisc.edu/yavuz/images/f/f5/MPA-40-40.pdf User Manual] ==Notes==") |
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[[File:Mpa-40-40.jpg|thumb|400px|]] |
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== Files == |
== Files == |
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* [https://wiki.physics.wisc.edu/yavuz/images/f/f5/MPA-40-40.pdf User Manual] |
* [https://wiki.physics.wisc.edu/yavuz/images/f/f5/MPA-40-40.pdf User Manual and specs] |
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==Notes== |
==Notes== |
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* This amplifier is nominally 4 Watts but can be run at higher power as long as the input doesn't exceed +10 dBm and it's temperature stays below 65 C. |
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* I am running this around 5 W and with additional heat sinks the temperature gets up to ~50 C. |
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* Unlike the Mini-Circuits RF amplifiers, this amplifier draws more current as the input power is increased. |
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* Also, the input and output relative to the voltage terminals are flipped compared to the Mini-Circuits amplifiers. |
Latest revision as of 16:37, 30 January 2015
Files
Notes
- This amplifier is nominally 4 Watts but can be run at higher power as long as the input doesn't exceed +10 dBm and it's temperature stays below 65 C.
- I am running this around 5 W and with additional heat sinks the temperature gets up to ~50 C.
- Unlike the Mini-Circuits RF amplifiers, this amplifier draws more current as the input power is increased.
- Also, the input and output relative to the voltage terminals are flipped compared to the Mini-Circuits amplifiers.